A sealing and drainage device for a motor vehicle transmission is located in a wall approximately near the bottom of the transmission housing and includes a ball and a plate that encloses the ball in a bore through the housing wall. The plate has an opening on which the ball sits under normal operating conditions. During unexpected flooding conditions, water flows through the opening into the bore. The ball floats on the water such that as the water rises in the bore, the ball rises as well to the top of the bore to seal the bore from the interior of the housing, preventing water from flowing into the housing.
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15. A sealing and drainage device for motor vehicle transmission comprising:
a ball;
a plate that encloses the ball in a bore through a transmission housing wall, the plate having an opening on which the ball sits during normal operating conditions;
an anti-contamination feature that includes a spring and a plunger assembly with an outer plug and an inner plug, the spring being located between the inner plug and the plate to urge the outer plug against the exterior of the plate so that the outer plug forms a seal with the exterior of the outer plate,
wherein during unexpected flooding conditions, water flows through the opening into the bore, and
wherein the ball floats on the water such that as the water rises in the bore, the ball rises as well to the top of the bore to seal the bore from the interior of the housing, preventing water from flowing into the housing.
1. A motor vehicle transmission comprising:
a housing enclosing a clutch assembly;
a sealing and drainage device located in a wall approximately near the bottom of the housing, the sealing and drainage device including a ball and a plate that encloses the ball in a bore through the housing wall, the plate having an opening on which the ball sits during normal operating conditions, the sealing and drainage device including an anti-contamination feature, the anti-contamination feature including a spring and a plunger assembly with an outer plug and an inner plug, the spring being located between the inner plug and the plate to urge the outer plug against the exterior of the plate so that the outer plug forms a seal with the exterior of the outer plate,
wherein during unexpected flooding conditions, water flows through the opening into the bore, and
wherein the ball floats on the water such that as the water rises in the bore, the ball rises as well to the top of the bore to seal the bore from the interior of the housing, preventing water from flowing into the housing.
2. The transmission of
7. The transmission of
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11. The transmission of
12. The transmission of
13. The transmission of
16. The device of
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This application claims the benefit of U.S. Provisional Application No. 61/592,994, filed Jan. 31, 2012, the entire contents of which are incorporated herein by reference.
The present disclosure relates to a transmission for a motor vehicle. More specifically, the present disclosure relates to a sealing and drainage device for a transmission for a motor vehicle.
The statements in this section merely provide background information related to the present disclosure and may or may not constitute prior art.
Transmissions for motor vehicles include components such as gears and clutch assemblies enclosed in a housing. In unexpected circumstances, the housing may be partially or fully submerged in water when the vehicle crosses over deep water, which may occur, for example, during flooding. In such situations, the housing is partially or fully submerged for a short period of time. Hence, to fully seal the interior of the housing from incoming water for a long period of time is uneconomical.
Accordingly, there is a need for a sealing and drainage device for a transmission that prevents damage to the interior components of the transmission when the transmission housing is partially or fully submerged in water.
The present invention provides a sealing and drainage device for a motor vehicle transmission. The sealing and drainage device is located in a wall approximately near the bottom of the transmission housing and includes a ball and a plate that encloses the ball in a bore through the housing wall. The plate has an opening on which the ball sits during normal operating conditions. During unexpected flooding conditions, water flows through the opening into the bore. The ball floats on the water such that as the water rises in the bore, the ball rises as well to the top of the bore to seal the bore from the interior of the housing, preventing water from flowing into the housing.
Further features, advantages, and areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. Moreover, in the figures, like reference numerals designate corresponding parts throughout the views. In the drawings:
The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses.
Referring now to the drawings, a motor vehicle transmission embodying the principles of the present invention is illustrated in
Referring to
When a flooding condition occurs, water enters the bore 12 through the opening 16 in the plate 15. The ball 14 floats and moves from a resting position (1) to a sealing position (2), where the ball 14 contacts the cone surface 13 in the bore 12, thereby preventing water from entering the housing 11. If flooding is happening for an extended period of time, some water may enter the area 21 of the clutch assembly (
In general, to maintain proper functionality, the cone surface 13 and the ball 14 are not contaminated with dust, mud, etc. Usually the bottom of the housing 11 is exposed to contaminants during normal operating conditions as well as during flooding conditions. Accordingly, in another arrangement of a sealing and drainage device 131 (
The plate assembly 15A is assembled by inserting the inner plug 18 into the opening 16 of the plate 15 (see, for example,
The sealing and drainage device 131 shown in
In the assembled condition, the spring 19 pushes the plunger assembly 22 up such that the outer flange surface 18b of the inner plunger 18 contacts the plate 15. As such, the opening 16 is closed off to protect the bore 12, the ball 14, and the plunger assembly 22 from contamination. Also note that the plunger assembly 22 in the up position slows the water flow into the bore 12 during flooding conditions.
When a flooding condition occurs, water enters the bore 12 through the opening 16 in the plate 15. The ball 14 floats and moves from the resting position to the sealing position, where the ball 14 contacts the cone surface 13 in the bore 12, thereby preventing water from entering into the housing 11. When the flooding condition ends and the water level drops below the sealing position, the ball 14 floats on the water and lowers its position as the water drains out of the hole 16. Note that when the flooding condition is diminishing and the surrounding water level drops, the water pressure head acting on inner plug 18 of the plunger assembly 22 collapses the spring 19 and moves the plunger assembly 22 down to further facilitate drainage of the water out of the housing 11. Any remaining water flows out of the housing 11 and the bore 12 through the slots 16A around the opening 16.
During the operation of the vehicle, it moves up and down, because of road interactions and vehicle acceleration/deceleration. This vehicle movement translates to movement of the sealing and drainage device 131 as well, since vertical vehicle motions create inertia forces on the sealing and drainage device 131. As such, the plunger assembly 22 inertia forces cause the spring 19 to deflect, which in turn allows the plugs 17 and 18 to move slightly up and down. This movement provides a self-cleaning mechanism for the plunger assembly 22 and the plate assembly 15A, which further improves cleanliness of the sealing and drainage device 131.
In another implementation shown as a sealing and drainage device 431 in
The description of the invention is merely exemplary in nature and variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
Sowul, Henryk, Villegas, Kristopher
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Nov 19 2012 | VILLEGAS, KRISTOPHER | GM Global Technology Operations LLC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 029335 | /0744 | |
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